A semi-empirical scaling model for low-power Hall effect thrusters and its application to the analysis of the Halo thruster performance

Silvia Masillo; Andrea Lucca Fabris; Paolo Bianco

doi:10.1007/s44205-025-00165-7

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A semi-empirical scaling model for low-power Hall effect thrusters and its application to the analysis of the Halo thruster performance

Journal article

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A semi-empirical scaling model for low-power Hall effect thrusters and its application to the analysis of the Halo thruster performance

Silvia Masillo, Andrea Lucca Fabris and Paolo Bianco

Journal of electric propulsion, Vol.4(1), p.67

07/11/2025

DOI: https://doi.org/10.1007/s44205-025-00165-7

Abstract

Applied and Technical Physics

Physics and Astronomy

Space Exploration and Astronautics

Space Sciences (including Extraterrestrial Physics

Physics

Plasma Physics

An efficiency breakdown analysis is derived including energy efficiency, propellant utilization efficiency and beam efficiency and correlates the thruster performance with plasma parameters. The methodology can be applied to a partially ionized and multiply-charged discharge plasma. Additionally, a semi-empirical scaling model is introduced, utilizing a novel database of low-power Hall Effect Thrusters to predict performance across various power levels. These models are used to analyze the Halo thruster performance, providing insights into ionization, acceleration, and loss mechanisms. The findings indicate specific performance losses due to plasma-wall interactions, low ionization rate and low mass utilization efficiency and highlight the need to improve the Halo’s magnetic field design to enhance thruster performance.

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Title: A semi-empirical scaling model for low-power Hall effect thrusters and its application to the analysis of the Halo thruster performance
Creators: Silvia Masillo - University of Surrey, School of Maths and Physics
Andrea Lucca Fabris - University of Surrey, School of Maths and Physics
Paolo Bianco - Airbus Defence and Space, Forschungszentrum Jϋlich, Wilhelm-Johnen-Straße
Publication Details: Journal of electric propulsion, Vol.4(1), p.67
Publisher: Springer International Publishing; LONDON
Number of pages: 31
Publication Date: 07/11/2025
Grants: Halo thruster development phase 2, 4500623494, Airbus Defence and Space (2855) Limited
PhD Scholarship, PhD_CVSSP, University of Surrey (United Kingdom, Guildford)
Grant note: The Halo thruster research and development activities were supported by Airbus Defence & Space and the UK Space Agency under the “Development of a Halo-200 Electric Propulsion System” project. Gratitude is extended to Surrey Satellite Technology Limited (SSTL) for the PhD studentship, which has provided essential support for this work and has facilitated various opportunities for growth and learning throughout the research journey.
Identifiers: 991062228902346; WOS:001611117500001
Academic Unit: School of Maths and Physics
Language: English
Resource Type: Journal article
Data Access Statement: Raw data were generated at Surrey Space Centre (SSC), University of Surrey. Derived data supporting the findings of this study are available from the corresponding author S.M. on request.

A semi-empirical scaling model for low-power Hall effect thrusters and its application to the analysis of the Halo thruster performance

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